Our data showed that the

Our data showed that the VX-809 mouse expression of btuB was indeed reduced when E. coli cells were grown to stationary phase in an acidic medium as compared to the same cells grown in neutral medium (Table 4). The reduction in the production of btuB in response to acid stress probably represents a physiological regulatory mechanism of bacteria facing environmental challenges such as low pH. Under stress environment, bacteria need to alter their metabolism to adapt to the environmental change. The transportation of cobalamin by BtuB receptor is driven by proton motive force (PMF)[45]. Since the PMF of bacteria is increased at low pH[46], the cobalamin transportation may be

enhanced by increased PMF. The higher concentration of cobalamin in cytoplasm will initiate riboswitch mechanism to repress

the translation Blasticidin S supplier of BtuB receptor, which is in good accord with the repression of btuB transcription by the acid-induced GadX for bacteria to decrease the production of BtuB in response to this acidic stress. Conclusions Through biological and biochemical analysis, we have demonstrated the GadX can directly interact with btuB promoter and affect the expression of btuB. When bacteria were grown to stationary phase in an acidic medium, the increased gadX expression would repress the btuB transcription to help bacteria to adapt to acidic shock. In conclusion, this study provides the first evidence that the expression of btuB gene is transcriptionally repressed by the acid responsive genes gadX and gadY. Methods Plasmid constructions To check details produce the His6-tagged ColE7/Im7 protein complex for the ColE7 resistance assay, pQE30ColE7-Im7 was constructed. The cea7-cei7 genes encoding the colicin E7 and immunity proteins, that form an active ColE7 complex, were amplified from plasmid K317 [47]

by PCR using primers F/cea7-BamHI and R/cei-PstI (Table 5). The 1,996-bp PCR product thus generated was inserted between BamHI and PstI sites of pQE30 (Qiagen), fusing the His6-tag to the N terminus of ColE7. For searching transcriptional regulators of btuB, a genomic library of E. coli K-12 strain constructed with the pGAD10 vector (Figure 1) was purchased from Clontech (catalog number XL4001AB) and transformed into E. coli strain DH5α. The plasmid pGadXY (Figure Sclareol 1) was isolated from the library in this study. To investigate the effect of GadX on btuB expression, pGadX was constructed as follows. A 1,077-bp DNA fragment containing gadX was generated by PCR using pGadXY (Figure 1) as the template and the MATCHMAKER 5′ insert screening sequence 5′-TACCACTACAATGGATG-3′ (Clontech) and R/gadX-PstI (Table 5) as primers. This 1.1-kb PCR fragment was inserted into pGEM-TEasy (Promega) by TA cloning, generating pGEMgadX. The 1.1-kb fragment was then isolated from pGEMgadX by EcoRI digestion and inserted into the EcoRI site of pGAD10, resulting in pGadX (Figure 1).

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